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Performance evaluation of a dead-end hollowfiber ultrafiltration method for enumeration of somatic and F+ coliphage from recreational waters
Citation:
Korajkic, A., B. McMinn, M. Herrmann, A. Pemberton, J. Kelleher, K. Oshima, AND E. Villegas. Performance evaluation of a dead-end hollowfiber ultrafiltration method for enumeration of somatic and F+ coliphage from recreational waters. JOURNAL OF VIROLOGICAL METHODS. Elsevier Science Ltd, New York, NY, 296:114245, (2021). https://doi.org/10.1016/j.jviromet.2021.114245
Impact/Purpose:
The United States Environmental Protection Agency is considering recreational water quality criteria for enumerating coliphage using a dead-end hollow fiber ultrafiltration combined with single agar layer assay (D-HFUF-SAL), but information on applicability across a broad range of sites and water types is limited. This manuscript describes the evaluation of D-HFUF-SAL method for concentration and quantification of somatic and F+ coliphages from recreational waters.
Description:
Dead-end hollow fiber ultrafiltration combined with a single agar layer assay (D-HFUF-SAL) has potential use in the assessment of sanitary quality of recreational waters through enumeration of coliphage counts as measures of fecal contamination. However, information on applicability across a broad range of sites and water types is limited. Here, we tested the performance of D-HFUF-SAL on 49 marine and freshwater samples. Effect of method used to titer the spiking suspension (SAL versus double agar layer [DAL]) on percent recovery was also evaluated. Average somatic coliphage recovery (72 % ± 27) was significantly higher (p < 0.0001) compared to F+ (53 % ± 19). This was more pronounced for marine (p ≤ 0.0001) compared to freshwaters (p = 0.0134). Neither method affected somatic coliphage, but DAL (28 % ± 12) significantly (p < 0.0001) underestimated F + coliphage recoveries compared to SAL (53 % ± 19). Overall, results indicate that, while D-HFUF-SAL performed well over a wide variety of water types, F + coliphage recoveries were significantly reduced for marine waters suggesting that some components unique to this habitat may interfere with the assay performance. More importantly, our findings indicate that choice of spike titer method merits careful consideration since it may under-estimate method percent recovery.
URLs/Downloads:
DOI: Performance evaluation of a dead-end hollowfiber ultrafiltration method for enumeration of somatic and F+ coliphage from recreational waters
https://pubmed.ncbi.nlm.nih.gov/34310974/